Scientific Thought in Childhood Education

Scholar Year: 2016/2017 - 1S

Courses

Head Teacher Responsability Ana Maria Dias Roque Lemos Boavida Head

Weekly workload Hours/week T TP P PL L TC E OT OT/PL TPL O S Type of classes Lectures Type Teacher Classes Hours Contact hours Totals 1 3,00 Ana Maria Boavida   1,60 José Freitas   0,80 Luiz Souta   0,80

Teaching language

Portuguese

Intended learning outcomes (Knowledges, skills and competencies to be developed by the students)

- To improve mathematics knowledge as well as scientific knowledge (Natural and Social Sciences);
- To know and to understand concepts, theories and procedures related to key topics of Mathematics, Natural Science and Social Science, mobilizing them appropriately in the analysis and discussion of issues that interrelate natural and social world;
- To apply to a scientific language appropriated to the context of Childhood Education.
- To formulate questions about phenomena and events from the perspective of an educational intervention in Childhood Education, integrating concepts, theories and procedures related to Mathematics and Natural and Social Sciences.

Syllabus

Fundamental aspects of the child's thinking in Mythical Stadium (Kieran Egan)
- Reality and imagination;
- Curiosity and action;
- The binary oppositions.

Problem posing and problem solving that allow the students to deep fundamental scientific concepts concerning, in particular, the following themes:
- Number Sense;
- Spatial sense;
- Collection, organization and analysis of data;
- Quantities and the process of measurement of quantities;
- Patterns and mathematical relations;
- Social differentiation / cultural ways of life; Organization and representation of the social space;;
- Democracy and citizenship in Childhood Education; Time and history in Childhood Education;
- Systemic approach and knowledge of the environment (interrelationships between society and nature).
- The human body: sense organs and body care.
- The environment and life: surrounding environment; renewable and non-renewable energy; the meteorological conditions.

Reasoning and communication as processes of evaluation and validation of scientific knowledge
- Collecting, representing, organizing and classifying information;
- Conjecturing and generalizing;
- Describing and analysing;
- Questioning, explaining and justifying.

Demonstration of the syllabus coherence with the UC intended learning outcomes

With an eminently scientific and technologic contemporary society (named as knowledge society), mathematical and scientifically literacy of citizens assumes particular relevance to help them to analyze critically situations, to think over about it and to take sustained decisions. Considering the crucial role of pre-school teachers in the development of scientific and mathematic literacy of children and the importance of foresee their future pedagogical practices in an intentional and reasoned way, this course aims to contribute to a deep understanding of concepts and procedures related to mathematics and Natural and Social Sciences and their mobilization. Thus, the contents of this curricular unit are focused on fundamental themes of these areas of knowledge. In this context the topics will be addressed in order to promote the connection between related concepts and procedures.

Teaching methodologies

The work to be undertaken under this course will focus on the active engagement of students (individual and in groups), in order to achieve a deep knowledge related to the themes. The sessions will include: (i) the resolution and discussion of problems concerning programmatic contents, (ii) reading, analysis and discussion of papers considered as founding of the course; (iii) the analysis and reflection of practical situations potentially promoters of the development of mathematic and scientific literacy.

Demonstration of the teaching methodologies coherence with the curricular unit's intended learning outcomes

The learning outcomes are focused on learning concepts and processes related to Mathematics and to Natural and Social Sciences. This learning requires conceptual understanding and therefore the resolution and discussion of problems is an important methodological option for the work that will be carried out in classes. This option aims, in particular, to foster and to support the domain in the use of procedures as well as the ability to think logically, to reflect on ideas and to explain and justify reasoning. The theoretical information provided by the teacher and the presentation, in the class, of work done by students contribute, not only to deepen their knowledge about the syllabus, but also to systematize this knowledge. It is intended that the analysis and reflection on episodes of practice which potentially can promote the development of child’ scientific and mathematic literacy (including practice situations already experienced), constitute an opportunity for the students: (i) to identify aspects related to content knowledge, as future educators who need to deepen, (ii) to develop a scientifically appropriate language for the Childhood Education context, distinguishing the common sense and scientific knowledge, and (iii) to perspective future interventions compatible with an integrated vision of development of concepts, processes and procedures related to Mathematics and to Natural and Social Sciences.

Assessment methodologies and evidences

The students may choose the modality of continuous assessment or final exam. The continuous assessment will focus on: (a) the development of individual written product (s) (40%), (b) the preparation and presentation of a working group that incorporate knowledge of Mathematics and Natural and Social Sciences - 50%) and (c) the attendance and participation in the activities of the classes (10%).
If students do not get a rating higher or equal to 9.5 on the weighted average of (a), (b) and (c), may do a final exam like the ones who have not opted for the modality of continuous assessment. This exam will involve the accomplishment of a written test, which will focus on the entire syllabus.

Attendance system

The option for continuous assessment modality requires the participation of at least 75% of classes at UC since their class attendance of each of the areas (mathematics, Natural Science and Social Science) is not less than 60%.
It is advisable to consult the Regulation of Frequency and Evaluation of ESS / IPS, in particular Articles 24 and 25. The students with special status who can not meet the frequency conditions above should contact the teacher responsible for UC.

Assement and Attendance registers

Bibliography

8. Bibliografia principal
Campenhoudt, L. (2003). Introdução à análise dos fenómenos sociais. Lisboa: Gradiva.
Egan, K. (1988). Primary understanding: Education in early childhood. New York and London: Routledge.
Egan, K. (1987). Mente da criança. Coelhos falantes & laranjas mecânicas. Lisboa: Instituto Piaget/Horizontes Pedagógicos, nº 82, 2001.
Lannin, J., Ellis, A., & Elliott, R. (2011). Developing Essential Understanding of Mathematical Reasoning for Teaching Mathematics in Prekindergarten - Grade 8. Pennsylvania: National Council of Teachers of Mathematics.
NCTM (2007). Princípios e Normas para a Matemática Escolar. (trabalho original publicado em 2000 pelo NCTM). Lisboa: APM.
O'Connell, S. (2007). Introduction to Problem Solving, Grades PreK-2. Portsmouth: Heinemann.
Oliveira, I. & Moreira, D. (2002). Iniciação à Matemática no Jardim de Infância: Lisboa: Universidade Aberta.
Palhares, P. (coord.) (2009). Elementos de Matemática para Professores do Ensino Básico. Lisboa: Lidel.
Reis, P. (2008). Investigar e Descobrir: Actividades para a Educação em Ciência nas Primeiras Idades. Chamusca: Edições Cosmos.
Roldão, M. C. (1994). O pensamento concreto da criança: Uma perspectiva a questionar no currículo. Lisboa: Instituto de Inovação Educacional/Ciências da Educação, nº 4.
Santos, M., Gaspar M. & Santos S. (2014). A ciência na educação pré-escolar. Lisboa: Fundação Francisco Manuel dos Santos.
Seefeldt, C., Castle, S., & Falconer, R. (2013). Social Studies for the Preschool / Primary Child. New York: Pearson.


Sites:
Direção Geral da Educação: http://www.dge.mec.pt
How stuff works: http://www.howstuffworks.com/
Agência Nacional para a Cultura Científica e Tecnológica: http://www.cienciaviva.pt/home/
National Council of Teachers of Mathematics: https://illuminations.nctm.org